System and method for providing first responders a searching tool to find trapped people in emergency area where the communication infrastructure is damaged and or disabled, utilizing scaning4life method and a mobile phone as emergency beacon

ABSTRACT

The system method described herein could provide first responders search and rescue unite or emergency personal a tool to search scan and find trapped or people in distress in an emergency or disaster area where and when the communication infrastructure is damage or disabled, utilizing a mobile phone as emergency beacon.

RELATED APPLICATIONS

This application is a divisional application of U.S. application Ser. No. 12/932,811 Filed Mar. 7, 2011 that is a divisional application of U.S. application Ser. No. 12/069,899 Filed Feb. 13, 2008 now a U.S. Pat. No. 7,924,149 that is a divisional of application Ser. No. 11/472,706 Filed Jun. 22, 2006 that is a divisional of application Ser. No. 11/429,864 Filed May 8, 2006 that claim the benefit of the provisional application US60/678,947 filed May 9, 2005.

FIELD OF THE INVENTION

This invention is directed generally to the field of rescue and emergency and, more particularly, to such methods to be used indoors or outdoors in cases of emergency to search and find building occupants or people trapped in rubble or collapsed buildings due to disaster or an emergency situation.

BACKGROUND OF THE INNOVATION

Our System will exploit the capability of research and rescue personal to search/scan a disaster or emergency area for people that may be trapped and Looking for help by scanning and locating the most likely device that they all carry—a mobile phone. Our system intends to be used in an environment that is potentially much less “friendly” than normal and more demanding as proof over and over in most emergency situations when the cellular network fail.

From the outset, our system has been designed with the capability to utilize existing technology so it can be deployed as a stand-alone system, or in tandem with existing systems. We focused on technology already in place that simply needs to be expanded.

We believe that implementation of our system will assist search and rescue teams as well as counter terrorism activities and more importantly will provide additional tools that may help the first response teams to search and rescue people trapped inside buildings or in an emergency disaster area especially when you need to pin point and locate the people where the cellular infrastructure fails, It can save lives.

The fact is that mobile phones are the most carried-on devices, it is estimated that soon there will be more mobile phones than people in the world and most people carry mobile cell phones all the time.

Although there has been much effort by cellular companies after September 11, tracing for people calling 911 from cell phone results in an accuracy of 300-1000 meters and fails the requirement set by the FCC, and that's when the infrastructure and the cellular communication are still in working order!.

During recent emergencies including 9/11 the cell phone network went down and many cell phones calls and messages could not go through because of the huge demand, in most emergency or disaster situations the cellular communication fail or damage.

It is widely estimated that many people still survive the catastrophic disaster like recent earthquakes and terrorist event like September 11 but are trapped inside the rubble without the option to communicate or use their mobile phones to call for rescue.

Wake-Up Calls:

The 9/11 terrorist attacks on the World Trade Center and the Pentagon, the Madrid bombings, the London bombings, the New York subway failure and the Virginia Tech event, recent earthquakes, and tornado disasters were a demonstration of the weaknesses and failures of the existing cellular communications infrastructure especially when you need it most.

On 9/11, radio transmitters and cell sites including telecommunications infrastructure were damaged. Emergency personnel could not communicate in these challenging environmental conditions. There were tremendous gaps in command and control. Firefighters were cut off from critical communication because their radio systems failed. Many lives were lost and many people still alive couldn't be found.

“When the towers went down the cell sites were lost, as cell sites dropped, so did the communications”—Former NYC Police Commissioner quote.

The existing technical means to detect where mobile handsets are located are dependent on cellular towers and or GPS and active communication that again prove to be non-effective or damaged in an emergency.

And more, during the emergency and immediately after the emergency, even if the cellular network still works a network congestion is likely to occur in many types of networks. In the aftermath of the emergency the elements of real-time and location may be crucial and the mobile phone can become useless when the telecommunications infrastructure is damaged.

Cell Phone Jamming:

Cell phone jamming devices were originally developed for law enforcement and the military to interrupt communications by criminals and terrorists that may rely on cell phones to trigger explosives. It has been widely reported that a cell-phone jammer are in use by law enforcements in emergency events made by man to bring down the cellular communication that the terrorist or criminals may be using.

So even if the cellular communication survives the man made emergency events, it most likely will still be useless.

And the most likely a reason there is no effective and practical solution is also:

The important of power—the battery power!

Battery Life is so important especially in an emergency hence in that situation when a phone can't find a good/or any signal, the phone will constantly look for a signal and will quickly drain the battery power doing so. This is easily understood if you have ever forgotten to turn off your phone on a flight.

Common wisdom says the best way to save battery life is to turn off the features you don't really need, in an emergency—the battery can be a life saver if you can save it, but it may be absurd that the best tip you can offer to increase the mobile phone staying power in an emergency is to not use it, to be more precise—not using it for cellular communication.

Our Unique Approach:

Our unique approach is to use the mobile phone as a device and not as a phone; in an emergency the user will initiate an application on his mobile phone by pushing an emergency/panic/help button.

The application will allow the mobile phone to preserve the battery by entering the mobile phone into beacon like working mode to allow saving 4 to 5 times the battery power to allow the mobile phone to be found by first responders when they will arrive to the emergency/disaster area and start the search and rescue operation, the critical time known as a “golden day”—the time you can still find people alive.

Our innovation will allow Encoding user ID into the handset naming to recognize or identify the user again without the need for cellular communication.

The search and rescue team will use an emergency scanner, sensitive power scanner—designed to pick up relatively weak signals coming from a mobile phone handset, ether cellular signal or Bluetooth wifi, pinpoint to the location and allow decoding the user ID to identify the victim/trapped person.

Our unique method to make the mobile phone a beacon will allow the victim/trapped person to preserve the mobile phone power at least 4 to 5 times over normal operation and will allow a victim/trapped person a sign of life and a way to be found and thus increase the “golden day” time to even days after an emergency or disaster event. In a way without preserving the battery it will not be practical at all.

The mobile phone can be a life saver, even if it will work in a different way than designed to and without cellular communication.

It can be an add-on tool to the first responders in any place in the world as well as an add-on tool to police or emergency units that try to locate people in case of emergency where the cellular and or the GPS are not available or not accurate.

Since there are more than 4 billion phones in use all over the world, most include Bluetooth communication, it seems obvious to include mobile devices and Bluetooth in public search and rescue operation systems.

Recent emergency situations teach us that the cellular communications in emergency situations are prone to crash due to the high volume of calls.

By using our method there is no need for the cellular communication at all just the telephone device with the Bluetooth and or wifi and a way to preserve the battery power, we will use the signal coming from the device—the mobile phone as a beacon for the user benefit in emergency.

Our system uses the most used communication system that exists in almost all mobile phones even the oldest—the Bluetooth.

Cost: The system is not prohibitively expensive.

Deployment: Our system relies on technology that is already widely available and in use today, it can serve as add-on to the current equipments use by search and rescue unites around the world, moreover it can be used for other emergency situations where the user is in distress and needs to be found in proximity.

Scanning and identifying people in proximity for emergency use can be set for use in a non-emergency like “a black box in a room” or only in an emergency situation.

Do to the accuracy needed and the location (can be indoors) the GPS can't provide a solution—GPS accuracy 200-300′ when a signal is available, you can't accurately locate people in an indoor location.

The same is true for cellular network providers, as the accuracy is also 200-300, and only when the signal is available, (problem indoor) and problem when you need it most—in an emergency situation when most of the cellular network fails do to high demand or damage to the infrastructure.

By calculating the signals (triangulation method is one of them) coming from identifying distress mobile users we can achieve greater accuracy—less than 10 m.

The system can be an add-on to the e911 and when you need to locate people in an emergency in a close proximity area or when GPS and cellular can't provide the accuracy needed.

We explored the mobile device and it's content to be used in an emergency. One of the options is to add to the mobile phone/beacon the ability to generate high frequency sound “dog whispering sound” that can detect and alert the search and rescue dogs sensitive ear and the scanning4life device and provide additional possibility to find the trapped victim, the Hi frequency sound will be part of the emergency application initiated by the emergency button.

Reference to prior, arts:

U.S. Pat. No. 6,807,564, Panic button IP device, a device for requesting emergency assistance having a built-in panic button that may be implemented in hardware or software. The device may be in a wearable configuration so that the user in need of emergency help can carry the device on the user's person, or the device may be located at a fixed location accessible by the user. Activation of the panic button by the user results in the device automatically transmitting one or more TCP/IP messages over the Internet e.g., via Internet e-mail, with the device (and, hence, with the user) prior to dispatching emergency help. The resources of the Internet may thus be advantageously harnessed to allow users to request emergency help.

Clearly an internet and cellular communication must be existing, and as prove already in emergency they will not be working, so it is not practical and not an answer and for sure not as to our innovation.

U.S. Pat. No. 6,636,732, Emergency phone with single-button activation, an emergency-use-only cellular phone provides for contacting and establishing full duplex voice communication with emergency personnel at an emergency response center with the press of a single activation button. When the activation button is pressed a first time, the following functions are initiated: (1) electrical power from a power supply is provided to a cellular transmitter and receiver, (2) the cellular receiver is activated to search for an available channel from among A or B cellular system channels, (3) an emergency telephone number is accessed from memory, and (4) the cellular transmitter is activated to establish communication with the emergency response center.

Since all of these functions are need communication to be available include cellular communication it is not practical and are not as our innovation.

U.S. Pat. No. 6,535,127, Panic alert for cellular telephone. An integrated electronic apparatus includes a personal electronic device other than a personal alarm. A personal alarm is integrated with the personal electronic device. A battery is electrically coupled to the personal electronic device and the personal alarm so as to provide electric power to both the personal electronic device and the personal alarm.

Clearly additional device add-on that need to additional of cellular phone and needed cellular or other communication infrastructure to be exist, for sure not as our innovation.

U.S. Pat. No. 6,340,928, Emergency assistance system using Bluetooth technology. An emergency assistance system (10) that transmits vehicle and occupant information to an emergency station (26) in the event of a vehicle crash condition. The system (10) includes a vehicle crash sensing system (40) that senses the vehicle crash condition and transmits a crash signal through a first port (42) using Bluetooth™ technology. A cellular phone (12) having GPS (30) receives the crash signal through a second port (32) using Bluetooth™ technology, which in turn is coupled to a controller (16) within the cellular phone (12).

Clearly a system for car crash that need cellular phone communication, the Bluetooth is to interface between the phone and the other device, not as our innovation when we use the signal as a beacon and not to establish real communication or to transfer data, clearly not as our innovation.

United States Patent Application 20010026223, Assisted personal communication system and method, A personal communications system which may be used for a variety of emergency and non-emergency situations using two-way communication devices and a bidirectional communication network. In one application two-way pagers are adapted for use in the system. In one application cellular devices are adapted for use in the system. In one application an assisted living response center is established using various embodiments of the present personal communications system. The system provides multiple levels of prioritization. One embodiment provides a method for receiving, evaluating and responding to calls received from a subscriber.

Clearly cellular or two ways communication needs to be establishing, not as our innovation.

U.S. Pat. No. 6,072,396, Apparatus and method for continuous electronic monitoring and tracking of individuals. An apparatus and method of monitoring mobile objects or persons using the Global Positioning System satellites and cellular telephone communications. The apparatus may include first and second remote units adapted to be worn on the monitored person or object. These remote units would comprise the position and data sensors as well as the transmitter device; the system is also adapted to monitor persons in hazardous environments such as radioactivity or poisonous gases or even to monitor inanimate objects such as automobiles.

Clearly additional device needed and not as to our innovation.

U.S. Pat. No. 5,971,921, Medical alarm system and methods, the invention provides exemplary monitoring systems and methods for their use. In one exemplary method, a person is provided with a transmitter having an actuator. The actuator is operated to transmit a wireless signal of about 900 MHz the signal from the transmitter is sensed with a receiver/caller unit which sends a digital signal over a telephone line to a monitoring center.

Clearly additional device 900 MHz device and not as our innovation.

U.S. Pat. No. 5,838,237, Personal alarm device, a self-contained personal alarm device capable of signaling its location to a remote site such as a security station. The personal alarm device includes a housing enclosing a controller, an antenna, a cellular transmitter and a cellular receiver. The controller controls the transmitter and the receiver to receive position location signals such as Global Positioning System signals (GPS), establish a cellular connection with a remote site, and transmit device location data to the remote site on the cellular connection, wherein the device location data indicates the location of the device. The cellular connection is established via a cellular telecommunication network that includes an array of cell base stations. The GPS signals are transmitted to the device over the cellular network by providing each cell base station with a Differential Global Positioning System (DGPS) receiver. Using the DGPS receivers, GPS signals are repeated over the cellular network.

Clearly you need the cellular communication to be working and there is add-on device clearly not as our innovation.

U.S. Pat. No. 5,771,001, Personal alarm system, A new Personal Alarm System for detecting whether a person is in an emergency situation by measuring blood pressure, pulse and temperature, and thereafter transmitting such information and location through cellular relay stations.

Clearly cellular communication are needed and add-on system and for sure not as our innovation.

U.S. Pat. No. 5,742,233, Personal security and tracking system, A signaling system comprises a portable signaling unit, a remote alarm switch device, a central dispatch station, and a wireless communication system such as a cellular or telephone system, etc., and a GPS or alike system. The portable signaling unit and the remote alarm switch may be adapted to be worn at different locations on the person's body, the portable signaling unit sends a data transmission which includes its location to the central dispatch station. The portable signaling unit also has manual alarm trigger capabilities so it can be used without the remote alarm switch unit. The central dispatch station receives the data transmission and accurately displays the user identification, stored personal information, nature of the alarm; in addition the location of the portable signaling unit is superimposed on a digitized map at a position corresponding to the location of the person wearing the portable signaling unit. The portable signaling unit can be remotely activated from a central dispatch station to determine and monitor the location of the portable signaling unit.

Clearly add-on unit needed as well as communication to be establishing, not as our innovation.

U.S. Pat. No. 5,712,619, Global positioning system personal alarm. A new Global Positioning System Personal Alarm for providing a personal alarm system in the event of an assault, a power source electronically connected to the global positioning system, and a cellular phone system electronically connected to the global positioning system.

Clearly add-on device and GPS needed, not practical and not as to our innovation.

U.S. Pat. No. 5,652,570, Individual location system. An interactive individual location and monitoring system includes a central monitoring system for maintaining health, location, and other data with respect to an individual. A watch unit carried by the individual receives medical and other information selected by and inputted directly from the individual. The watch unit broadcasts the medical and other information locally by radio in a region near the individual. A belt worn pod etc.

Clearly need an add-on device, belt pod to ware and not the mobile phone as to our innovation.

U.S. Pat. No. 5,568,535, Alarm system for enclosed area. An alarm system for protecting premises comprises a fully integrated, alarm detecting cellular phone unit which is linked to various sensors in order to detect the sensor outputs. The cellular alarm unit includes, in addition to cellular phone functions, a formatter or processor for generating an emergency signal on detection of a sensor output, the emergency signal including information on the type of emergency detected. Cellular connection to a remote monitoring station. The connection is wireless at least from the premises to a local cell site. Once connection is established, the emergency signal is transmitted to the monitoring station via the local cell site.

Clearly cellular as well as add-on wearable device need, not as our innovation.

U.S. Pat. No. 5,305,370, Personal emergency response communications system. A personal emergency response system in which a hand held portable transmitter (12) activates a base unit (14) interfaced with the telephone network (16) to dial 9-1-1 and permit direct communications with the operator (18) at the public safety answering point even though the user (10) is unable to reach a telephone (36). The transmitter (12) activates the base unit (14) as well as optional remote units include speaker-phone communication capabilities which permit two-way communications between the user (10) and the 9-1-1 system operator (18).

Clearly add-on and need communication and not as our innovation.

U.S. Pat. No. 5,195,126, Emergency alert and security apparatus and method. A telecommunications system which includes a 911 and voice message service platform for providing such services as telephone answering, voice mail and call completion. An emergency/safety notification system is incorporated and includes a monitor/router device passively connected to the 911 trunk to detect number identification signals.

Clearly not as our innovation as need communication that prove to be down so it is not practical and not as our innovation.

U.S. Pat. No. 4,491,970, Portable transmitter for emergency alarm system having watertight enclosure, The present invention provides a small portable radio transmitter unit which can be worn on the wrist or suspended from a neck chain . . . .

Clearly not as our innovation as it depends on add-on device.

U.S. Pat. No. 5,873,040, Wireless 911 emergency location. A system arrangement and method are disclosed for determining location of a wireless mobile unit involved in a call for public emergency assistance (e.g. a “911” call). The system is cost-effective in that it makes extensive use of existing telecommunication infrastructures, and does not require either special hardware or software at either the mobile unit site or the emergency assistance center handling a call. The system features shared use of a computer and specially defined database among a plurality of mobile switching offices serving a larger plurality of mobile base stations, the latter serving an even larger plurality of antenna and transceiving sites within predefined cellular regions. Signal strength measurements at the base stations are passed through the switching offices to a shared computer.

Clearly there is network of station, computers or mobile switch needed to operate and for sure not as our innovation.

Most if not all prior patents and applications use the cellular or other communication to communicate with the user as cellular phone, we use it not as cellular phone but as a device that is popular to be carry by most people and use the device to signal existence and to be located using the signal as a beacon and not as a cellular phone capability, practical to say that as of now with all the emergency and the disasters events that effect even huge advanced technologies countries like US and recently Japan, no such innovation as we suggest are exists in the market or being used.

Any suggestion to use the cellular communication in the events of emergency and or disaster prove to be not practical, from the battery drain problems to the fail of the communication infrastructure, any patents and application that based on GPS and or Cellular communication include text mesg. Prove again and again to be not practical to be used in emergency.

We believe that our innovation prove to be deferent, and design for such environment and condition where and when there is no infrastructure or it damage or fail, non of prior arts try to solve the problem from the user stand point—the battery power and from the search and rescue stand point—the scanning ability.

In all, our innovation prove to unique as it take the mobile phone and use it, well not as a mobile phone and not as it design but use all the capability of the device to be use in emergency to increase the chances of the user to be located in case of emergency/disaster situation where and when no other communication will be available.

We based our innovation on the following facts:

Mobile phones are the most carried device by any “user” globally.

GPS and the existing locating method depend on cellular communication and most likely will not be available in an emergency situation.

There is a great need for more accuracy outdoors and indoors.

GPS and cellular networks can't provide the accuracy needed, or the availability indoors/outdoors in an emergency or disaster situation.

The Bluetooth is the most used communication method today, and it is on almost all mobile phones used today.

Bluetooth has a way to recognize other Bluetooth devices in the close proximity.

Most of the technology already exists.

We based our patent on direct communication between the Bluetooth beacons to the “user” cellular phone without the need of the Cellular network or GPS, in reality there is no real communication between the scanner and the handset.

Privacy: the user is in complete control, he must push the emergency button to initiate the emergency/help/panic button and enter into the emergency mode, will eliminate any privacy issue as the user asks to be located.

Options:

The application method can also be use for non emergency where and when there needs to preserve battery power and the application will determine that signal is low or weak and will initiate the same method as in emergency, most like to shut off the scanning done by the mobile phone for available signal, that drain the battery faster—create profile to be used to preserve battery power.

The application method on the user mobile will initiate the emergency mode when:

Signal indicators find no signal for x amount of time And or power indicators are low,

Then

Shut off cellular communication or go to “airplane” mode for x amount of time, Turn on communication signal (Bluetooth and or Wi-Fi and cellular signal) for x amount of time, bring phone from airplane mode to x amount of time.

In all—making the mobile phone a beacon like operation to preserve battery power.

Make a profile—emergency profile to be encoded into the Bluetooth and wifi naming to decode the identification by the scanning device.

Our unique method includes the user side mobile app designed especially for emergency situations where and when the cellular communication will fail or is damaged as well with other normal infrastructure—like electric power.

The mobile application will allow the mobile phone to enter into a beacon like mode to preserve the mobile phone battery as well as encoding user ID into the handset naming to recognize or identify the user again without the need for cellular communication or any other communication method, the emergency scanner, sensitive scanner—designed to pick up relatively weak signals coming from mobile phone handset, either cellular signal or Bluetooth Wi-Fi, pinpoint to the location and allow decoding the user ID to identify the victim/trapped person.

Our unique method to make the mobile phone a beacon like will allow the trapped person/victim to preserve the mobile phone power at least 4 times over normal operation and will allow a trapped person/victim a sign of life and a way to be found even in a few days after emergency/disaster event.

Location Methods:

Four types of methods are used: Proximity Detection (PD), Received Signal Strength (RSSI), Time of Arrival (TOA) and Angle of Arrival (AOA).

Triangulation, Triangulation takes PD a step further, in the sense that it is based on measuring the signal level measurements from each antenna (possibly by using a triangulation mechanism), with respect to the scanning device receiving antennas. Following that, mobile is located by using a triangulation algorithm.

Why use Bluetooth for indoor location?

Bluetooth has some advantages in the context of indoor location, These include:

Bluetooth uses RF—in the 2.4 GHz ISM band, Specifically. In this frequency range, radio waves penetrate obstacles, such as walls and human bodies.

Bluetooth is a low power technology compared to other communication methods.

In contrast to Wi-Fi, Bluetooth uses much less battery power than Wi-Fi, which can drain your Cell Phone's battery in as little as an hour of use.

Bluetooth radio waves bounce off walls too. A staircase between stories or even a small gap between a debris will allows the signal to go up from one level to another, even in steel reinforced concrete building.

Bluetooth is a dominating technique for wireless communication; it has low power consumption, drawing only 0.3 mA in standby mode. This enables maximum performance longevity for battery powered devices.

During pauses or at lower data rates the drain would be lower.

The first hours after the disaster or emergency events are particularly critical. Many survivors who survived the event itself were in damaged area, but some could not receive medical treatment or be extracted out of the area of the disaster because the exact location was unknown.

Disabling the disaster network physical infrastructure damaged due to overload on those who survived, prevented those injured in the same area not only connect with their loved ones outside the disaster area, but also with search and rescue forces found their way to care for them. In some cases potential may be extracted Corkscrew found a few dozen yards apart, but in terms of visibility and noise prevented them from noticing each other.

Beacon mode broadcasts or operates at constant time interval, the main design to preserve battery power 4-5 times than normal operation.

Standby Time—The amount of time you can leave your fully charged cellular portable or transportable phone turned on before the phone will completely discharge the batteries.

Talk Time—The length of time you can talk on your cellular portable or transportable phone without recharging the battery. The battery capacity of a cellular portable or transportable is usually expressed in terms of so many minutes of talk time or so many hours of standby time. When you're talking, the phone draws additional power from the battery.

Electromagnetic Energy—Waves of electrical and magnetic energy moving together through space. Also called electromagnetic radiation.

The scanning can also scan for the electromagnetic radiations field generated by the cellular when looking to establish communication—or when you can't find the antenna—the exact situation in a disaster.

Sleep Mode—Designed to conserve battery life, this mode automatically turns off a terminal after it has been unused for a specified period of time. The unit is reactivated when the keypad is touched.

A beacon is an intentionally conspicuous device designed to attract attention to a specific location.

Beacons can also be combined with additional information or Identification to provide important information, such as user ID or emergency information like blood type or medical information, when used in such fashion; the mobile phone can save life.

In a beacon mode the mobile will transmits a periodic signal with limited information content (for example its encoding identification), on a specified radio frequency available in the mobile phone—cellular, Bluetooth and Wi-Fi.

Designed to transmit as a beacon in the event of an emergency, the mobile phone/emergency beacons will broadcast a unique identification signal that can be scanned and be decoded and aid in finding the exact location of the transmitter/mobile phone.

When activated by the user, the mobile phone/beacon mode will broadcast a signal that, when detected by special scanning4life sensitive scanner can be located by triangulation. The mobile phone/beacons can have a uniquely identified instantly via encoding the naming, and furthermore, a last GPS position can be encoded into the signal (thus providing both instantaneous identification & position.) The signals from the beacons are homed by Search and Rescue (SAR) ground search parties or even from the air that in turn come to the aid of the concerned persons.

One of the options is to add to the mobile phone/beacon the ability to generate high frequency sound that can detect and alert the search and rescue dogs and the scanning4life scanning device and provide additional possibility to find the trapped victim, the sound will be part of the emergency application initiated by the emergency button.

The application can be integrated or as add-on to our recent award patent Nav4emrgency:

“Providing emergency procedure and mapping according to user location, emergency information can reside on user mobile as a standard procedure for current occupants Providing digital emergency guidance . . . . ”

The basic purpose of our innovation is to increase the chance and “open window” to get people rescued within the so-called “golden day” (the first 24 hours following a traumatic event) when the majority of survivors can still be saved or found alive.

Using our method to preserve battery power and beacon like operating can increase the “Golden day” the window of opportunity to find the victims and save them, it can save lives.

SUMMARY OF THE INVENTION

In accordance with the present invention, these are our project's characteristics:

According to one aspect of the invention, it provides a system and method for use in emergency and disaster situation where the cellular or other communication infrastructure is damaged or fails.

According to another aspect, it provides a method for providing the mobile user an emergency application that will initiate by the user to encode emergency ID and additional emergency information like Blood type into the mobile phone, the emergency naming will be broadcasted by the mobile phone via Bluetooth or Wi-Fi to be picked up by the search and rescue scanning4life device.

According to yet another aspect, it provides a method to apply to the user in an emergency situation to preserve their mobile phone battery by entering the mobile phone into a beacon like mode, a way to save battery power and increase usage of the mobile phone device in an emergency—it can save a life.

According to yet another aspect, it provides a method to apply to the victim in an emergency or disaster situation to increase their chance to be found alive by using their mobile phone in our special innovation mode.

According to another aspect, it provides a method for providing the search and rescue and other emergency personal with add-on tool to scan detect and locate trapped victim or people needing help in an emergency by scanning and locating the most carried-on device in the world today—the user's mobile phone.

According to another aspect, it provides method for providing the search and rescue and other emergency personal the tools to ID people trapped or needing help from a distance, with the victim's emergency information detected and them located.

According to another aspect, it provides a Method for providing the search and rescue and other emergency personal to scan, detect, and locate people in an emergency without the need for cellular or other communication infrastructure that most likely are damaged or failed.

According to yet another aspect, it provides a Method to increase the chance and “open window” to get people rescued within the so-called “golden day” (the first 24 hours following a traumatic event) when the majority of survivors can still be saved or found alive.

BRIEF DESCRIPTION OF THE DRAWINGS

A better understanding of the present invention may be obtained by reference to the accompanying drawings, which should be considered in conjunction with the detailed description, all in accordance with the present invention.

FIG. 1 is a drawing of our scannig4life work flow procedure at the user mobile phone in accordance with the present invention.

FIG. 2 is drawing of our scannig4life scanning work flow for detecting and locating procedure at the search and rescue or emergency personal in accordance with the present invention.

FIG. 3 is a drawing of the scannig4life full procedure deployment and use architecture in accordance with the present invention.

FIG. 4 is an illustration of the scanning4life scanner to be used in emergency in accordance with the present invention.

FIG. 5 is an illustration of the scannnig4life work system elements in accordance with the present invention.

FIG. 6 is an illustration of the option of using the scanning4life method to detect locates people that may need help in an emergency in accordance with the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENT

In all the figures of the drawings, sub-features and integral parts that correspond to one another bear the same reference symbol.

Referring now to the drawings in detail and first particularly to FIGS. 1-6 thereof.

These figures illustrate the method and system to provide first responder or emergency team a new method to find victims in disaster or emergency situation and the method for the mobile user to increase his chances to be found alive.

Turning to FIG. 1, the drawing, illustrate the procedure of scanning4life emergency application at the user mobile phone 100, by pressing on emergency key icon 101 the user initiate emergency/panic/help, as part of the emergency application an emergency ID is encode into the Bluetooth and or Wi-Fi and cell naming 102, the information is encode in a code that can be recognize and decode by the search and rescue team in case of emergency, such emergency ID 102, may contain also blood type or other important medical information that can assist help the user if need help in emergency, the encoding is a done by the user when he setup the emergency application in the first time on his mobile phone 100 using a template that will allow storing and encoding the emergency information only when the emergency application was trigger by the user, another part of the application is to preserve the mobile phone power by initiate a beacon like operating 103, on the mobile phone 100, instead of operating all time the beacon mode 104, it will effectively put the mobile phone into operating like in “airplane” mode where all possible communication will be shut down for x amount of time and then turn off the “airplane” mode to get the mobile phone use the built in Bluetooth and or Wi-Fi or cellular to be on for x amount of time and vice versa, the idea is to use the existing communication signal available on the mobile phone to be located by a scannig4life device 200 handle by search and rescue unit in emergency, the beacon mode 104, can be setup in interleave time and can be setup to include only part or few of the communication signal that can emit by the mobile phone, the beacon mode 104, main idea is to preserve the battery of the mobile phone in such environment in emergency where and when most likely the cellular infrastructure will be damage or will fail, the result at the user mobile set 100, is increase of the search for signal by the mobile unit and a fast draining of the mobile phone battery in such time and place where it can be life saver.

Referring to FIG. 2, the drawing illustrated of the scanning4life scanning 200, by the emergency personal looking for to help and find the mobile user 100, a first responder emergency personal 201 will be scan the area/facility designated as emergency or disaster area for the beacon/signal initiated by the user mobile phone with emergency button trigger 101 and initiate broadcasting signal, Bluetooth and or Wi-Fi or cellular signal with the encoding naming 102, the first responder or search and rescue scanner will scan and determine beacon location 202 and decode the user ID of the mobile phone victim 102 to able to Identify the person even before rescue his where about and pinpoint the rescue team to have him rescue 203, the direction and locating of the mobile signal can be triangulation to find the exact location, the beacon 103 operating can include a high frequency sound generate by the mobile phone and attached to the signal emit from the mobile phone, Bluetooth and or Wi-Fi or cellular signal to be ear by the sensitive rescue dogs and by the scanning unit from a long range.

Turning to FIG. 3, it illustrate the all scanning4life procedure as describe in FIG. 1 and FIG. 2 And describe all the parts of the user emergency application at the user mobile phone 100, that initiate 101, the emergency/panic/help key, and that allow 102, encoding emergency ID into the mobile phone naming to be broadcast via Bluetooth and or Wi-Fi or cellular signal by way of beacon mode 103, to preserve the mobile phone battery, the mobile phone will broadcast 104 the signal with the encoding emergency ID, that will allow the search and rescue or emergency unit to perform scanning in the disaster/emergency area for the beacon signal initiate by the user 201, upon detecting such a signal—Bluetooth and or Wi-Fi or cellular signal emit in the beacon mode the first responder or emergency personal 202 will determine the location of the beacon/mobile 100 and decode the user emergency information 102 by the decoding scanner 202 and the mobile user can be rescue 203.

Referring to FIG. 4, is a drawing and illustrate of the scanner use for scanning4life, more particular, to scan an area designate as emergency or disaster area for signal emit broadcast from a mobile phone in an beacon like mode, the scanner 400, contain a sensitive scanning unit that allow scanning of cellular signal 2G and 3G cell phone signal emit from mobile phone Wi-Fi and Bluetooth signal detection with scanning band of 900 Mhz-5.8 GHz, GSM, AMPS, PHS, PCS WCDMA (European), CDMA (USA), 50 Mhz-6 GHz, with detecting distance of up to 100M, The scanning unit have high quality sensitive antennas 401 and possible to include a GPS for direction finder when finding and locating the signal, the scanning4life device 200 include a built-in rechargeable battery with option to ext. AC OR DC power, the scanner have a LCD screen to show the signal in a bar like graphics with 10 segments each for accurate location of the RF sources, each graph represent signal source like Bluetooth, Wi-Fi, GSM etc. the scanning device 400 can be portable hand held or by portable case, the scanning can be done from a car or by a person or even from the air by a helicopter or unman drone, the scanner can be detect also high frequency sound generate by the mobile phone emergency application 100, that design to attract rescue dog or detect by the scanning unit 400, when detect signal the scanning unit 400 can also use an external screen or computer unit connected to the scanning unit 405 and show on the circle or additional information on a screen the detecting and locating of the signal represent a mobile phone beacon that initiate emergency signal, in a practical way, people that doesn't have the emergency application and didn't or didn't initiate the beacon signal most likely will not be found by our method, most likely the mobile phone will not hold the battery and or beacon signal will not emit, it is also solve any privacy issue as only people that initiate and press the emergency key will have a chance to being located by the mobile phone they carry.

Referring to drawing FIG. 5, it illustrate how scannig4life 300, work: from 101, emergency/help button was press by the user that will initiate procedure 100 that include preserve battery 103 by entering into beacon mode 104 and encoding in the broadcast signal an emergency ID and emergency information 102, the search and rescue or the emergency personal 200, will scan the area for signal and sound emit from the mobile phone 100, using scanning4life scanner 201, that allow locating 202 and decoding the user ID and emergency information that will allow rescue/help the victim 203.

Turning to FIG. 6, it's illustrated a use of our method in searching for a user initiate an emergency/help/panic button in a building 601 even from outside of the building, in emergency situation where the mobile phone 100 as an emergency beacon are scan from outside by the scanner 200 with the screen 402 that can show the scan and detect signal 403 or at external computer or screen 404, with a circle 406 that show the detected devices around the area. 

What is claimed is:
 1. A system and method for providing a mobile phone user in an emergency or disaster situation application method to increase the chances to be found and get help from search and rescue or emergency personal even when and where the cellular or other communications damage or fail to work, The method comprises the steps of: An application software on the user mobile phone initiate by the user push button and An emergency ID encoding into the mobile phone Bluetooth and Wi-Fi and cellular naming and Initiate a beacon like operating of the mobile phone into beacon mode to preserve battery power say beacon mode will emit and broadcast signal with the encoding emergency naming and A first responder scanning device design to scan the emergency/disaster area to detect and locate signal emit from the mobile phone and The scanning device will detect and decode the mobile user ID to identify the user and his emergency information and The user/victim can be found and save by the emergency first responder rescue team.
 2. The method according to claim 1, which further comprises The method according to claim 1, which further comprises allowing encoding emergency information into the mobile phone Bluetooth and or Wi-Fi and cellular to be broadcast in a beacon mode say the encoding information can contain blood type or other critical emergency information to be decoded by the scannig4life device at the emergency/disaster event.
 3. The method according to claim 1, wherein the beacon mode pertains to provide a way to preserve battery power in emergency situation when and where no cellular communications are available.
 4. The method according to claim 1, which further comprises allowing encoding additional emergency information into the mobile phone naming say the information can be setup as profile to be used in emergency situation.
 5. The method according to claim 1, which further comprises using the mobile phone as emergency beacon and not as cellular phone say the beacon mode will allow the mobile phone emit broadcast signal to be pick up detect and locate by the scanning4life scanner used by search and rescue unit.
 6. The method according to claim 1, which further comprises a beacon mode design to emit broadcast Bluetooth signal and or Wi-Fi or cellular signal.
 7. The application method in claim 1 wherein said the beacon mode can be broadcast high frequency sound wave save on the mobile phone application said that sound can be recognize and make attention by the search and rescue dogs and the scanning4life scanning device allowing long range detection and locating.
 8. The method according to claim 1, which further comprises scanning for signal aim from the mobile phone in beacon mode say the scanning, will be for any signal emit from mobile phone, Bluetooth Wi-Fi and or cellular signal.
 9. The method according to claim 1, which further comprises determining a current position of a user/victim by a scanning a signal broadcast from the user mobile phone, method of triangulation calculation can be used.
 10. The method according to claim 1, which further comprises performing the determining step indoor or outdoor without the aid of a cellular communication and or global positioning satellite system or any other communication method that prone to be damage or fail to operate.
 11. The method according to claim 1, which further comprises beacon mode that can set as a user profile of operating the mobile phone say the profile can be use to preserve mobile phone battery in emergency and non emergency events.
 12. The method according to claim 1, which further comprises a method to be used in emergency and non emergency to detect and locate mobile user in distress or asking for help as well as in emergency and disaster situation say the method can be use in any place when and where GPS cannot be provided or is not accurate or precise enough to locate people in emergency or when the cellular communication fail.
 13. The method according to claim 13, which further comprises The method according to claim 1, which further comprises being part of emergency application providing a “paper less” of the existing emergency procedure and mapping to be residing as emergency information store in the cellular phone external or internal memory trigger and display in emergency on the mobile phone.
 14. The method according to claim 13, which further comprises providing the device/cellular phone with emergency application software for displaying pre-loaded emergency plan emergency procedure and area maps or facility/building floor plans that can store on the cellular phone as a program and plan for emergency use.
 15. The method according to claim 1, which further comprises a scanning4life device to be used by first responder or emergency personal say the scanner, can detect Bluetooth and Wi-Fi and cellular signal emit from the mobile phone.
 16. The method according to claim 15, which further comprises the scanning device can detect and locate hi frequency sound emit and broadcast by the beacon/mobile phone say the sound can be attract to also the search and rescue dogs.
 17. The method according to claim 15, which further Comprises the scanner unit which can be providing a GPS information of the detecting signal emit from the beacon/mobile phone.
 18. The method according to claim 15, which further comprises a decoding done by the scanning 4 life scanner allowing to Identify the mobile user in distress from remote say the emergency information may contain additional medical information like blood type that can assist in a the rescue operation. 